*=*=*=*= DEDD.html =*=*=*=*
SUBROUTINE DEDD

SUBROUTINE DEDD


      SUBROUTINE DEDD (KDLON,PGG,PREF,PRMUZ,PTO1,PW
     S                ,      PRE1,PRE2,PTR1,PTR2         )
      implicit none
C
#include "dimensions.h"
#include "dimphys.h"
#include "dimradmars.h"
C
C**** *DEDD* - DELTA-EDDINGTON IN A CLOUDY LAYER
C
C     PURPOSE.
C     --------
C           COMPUTES THE REFLECTIVITY AND TRANSMISSIVITY OF A CLOUDY
C     LAYER USING THE DELTA-EDDINGTON'S APPROXIMATION.
C
C**   INTERFACE.
C     ----------
C          *DEDD* IS CALLED BY *SW*.
C
C     SUBROUTINE DEDD (KDLON,PGG,PREF,PRMUZ,PTO1,PW
C    S                ,      PRE1,PRE2,PTR1,PTR2         )
C
C        EXPLICIT ARGUMENTS :
C        --------------------
C PGG    : (NDLON)             ; ASSYMETRY FACTOR
C PREF   : (NDLON)             ; REFLECTIVITY OF THE UNDERLYING LAYER
C PRMUZ  : (NDLON)             ; COSINE OF SOLAR ZENITH ANGLE
C PTO1   : (NDLON)             ; OPTICAL THICKNESS
C PW     : (NDLON)             ; SINGLE SCATTERING ALBEDO
C     ==== OUTPUTS ===
C PRE1   : (NDLON)             ; LAYER REFLECTIVITY ASSUMING NO
C                              ; REFLECTION FROM UNDERLYING LAYER
C PTR1   : (NDLON)             ; LAYER TRANSMISSIVITY ASSUMING NO
C                              ; REFLECTION FROM UNDERLYING LAYER
C PRE2   : (NDLON)             ; LAYER REFLECTIVITY ASSUMING
C                              ; REFLECTION FROM UNDERLYING LAYER
C PTR2   : (NDLON)             ; LAYER TRANSMISSIVITY ASSUMING
C                              ; REFLECTION FROM UNDERLYING LAYER
C
C        IMPLICIT ARGUMENTS :   NONE
C        --------------------
C
C     METHOD.
C     -------
C
C          STANDARD DELTA-EDDINGTON LAYER CALCULATIONS.
C
C     EXTERNALS.
C     ----------
C
C          NONE
C
C     REFERENCE.
C     ----------
C
C        SEE RADIATION'S PART OF THE MODEL'S DOCUMENTATION AND
C        ECMWF RESEARCH DEPARTMENT DOCUMENTATION OF THE "IN CORE MODEL"
C
C     AUTHOR.
C     -------
C        JEAN-JACQUES MORCRETTE  *ECMWF*
C
C     MODIFICATIONS.
C     --------------
C        ORIGINAL : 88-12-15
C     ------------------------------------------------------------------
C
C*       0.1   ARGUMENTS
C              ---------
      INTEGER KDLON
C
      REAL PGG(NDLO2),PREF(NDLO2),PRMUZ(NDLO2),PTO1(NDLO2),PW(NDLO2)
      REAL PRE1(NDLO2),PRE2(NDLO2),PTR1(NDLO2),PTR2(NDLO2)

c   local
      integer jl
      real*8 ZFF,ZGP,ZTOP,ZWCP,ZDT,ZX1,ZWM,ZRM2,ZRK,ZX2,ZRP,ZALPHA
      real*8 ZBETA,ZEXMU0,ZEXKP,ZEXKM,ZXP2P,ZXM2P,ZAP2B,ZAM2B
      real*8 ZA11,ZA12,ZA13,ZA22,ZA21,ZA23,ZDENA,ZC1A,ZC2A
      real*8 ZRI0A,ZRI1A,ZRI0B,ZRI1B
      real*8 ZB21,ZB22,ZB23,ZDENB,ZC1B,ZC2B
      real*8 ZRI0C,ZRI1C,ZRI0D,ZRI1D
C
C     ------------------------------------------------------------------
C
C*         1.      DELTA-EDDINGTON CALCULATIONS
C
 100  CONTINUE
C
      DO 131 JL   =   1 , KDLON
C
C*         1.1     SET UP THE DELTA-MODIFIED PARAMETERS
C
 110  CONTINUE
C
      ZFF = PGG(JL)*PGG(JL)
      ZGP = PGG(JL)/(1.+PGG(JL))
      ZTOP = (1.- PW(JL) * ZFF) * PTO1(JL)
      ZWCP = (1-ZFF)* PW(JL) /(1.- PW(JL) * ZFF)
      ZDT = 2./3.
      ZX1 = 1.-ZWCP*ZGP
      ZWM = 1.-ZWCP
      ZRM2 =  PRMUZ(JL) * PRMUZ(JL)
      ZRK = SQRT(3.*ZWM*ZX1)
      ZX2 = 4.*(1.-ZRK*ZRK*ZRM2)
      ZRP = SQRT(3.*ZWM/ZX1)
      ZALPHA = 3.*ZWCP*ZRM2*(1.+ZGP*ZWM)/ZX2
      ZBETA = 3.*ZWCP* PRMUZ(JL) *(1.+3.*ZGP*ZRM2*ZWM)/ZX2
      ZEXMU0 = EXP(-ZTOP/ PRMUZ(JL) )
      ZEXKP = EXP(ZRK*ZTOP)
      ZEXKM = 1./ZEXKP
      ZXP2P = 1.+ZDT*ZRP
      ZXM2P = 1.-ZDT*ZRP
      ZAP2B = ZALPHA+ZDT*ZBETA
      ZAM2B = ZALPHA-ZDT*ZBETA
C
C*         1.2     WITHOUT REFLECTION FROM THE UNDERLYING LAYER
C
 120  CONTINUE
C
      ZA11 = ZXP2P
      ZA12 = ZXM2P
      ZA13 = ZAP2B
      ZA22 = ZXP2P*ZEXKP
      ZA21 = ZXM2P*ZEXKM
      ZA23 = ZAM2B*ZEXMU0
      ZDENA = ZA11 * ZA22 - ZA21 * ZA12
      ZC1A = (ZA22*ZA13-ZA12*ZA23)/ZDENA
      ZC2A = (ZA11*ZA23-ZA21*ZA13)/ZDENA
      ZRI0A = ZC1A+ZC2A-ZALPHA
      ZRI1A = ZRP*(ZC1A-ZC2A)-ZBETA
      PRE1(JL) = (ZRI0A-ZDT*ZRI1A)/ PRMUZ(JL)
      ZRI0B = ZC1A*ZEXKM+ZC2A*ZEXKP-ZALPHA*ZEXMU0
      ZRI1B = ZRP*(ZC1A*ZEXKM-ZC2A*ZEXKP)-ZBETA*ZEXMU0
      PTR1(JL) = ZEXMU0+(ZRI0B+ZDT*ZRI1B)/ PRMUZ(JL)
C
C*         1.3     WITH REFLECTION FROM THE UNDERLYING LAYER
C
 130  CONTINUE
C
      ZB21 = ZA21- PREF(JL) *ZXP2P*ZEXKM
      ZB22 = ZA22- PREF(JL) *ZXM2P*ZEXKP
      ZB23 = ZA23- PREF(JL) *ZEXMU0*(ZAP2B - PRMUZ(JL) )
      ZDENB = ZA11 * ZB22 - ZB21 * ZA12
      ZC1B = (ZB22*ZA13-ZA12*ZB23)/ZDENB
      ZC2B = (ZA11*ZB23-ZB21*ZA13)/ZDENB
      ZRI0C = ZC1B+ZC2B-ZALPHA
      ZRI1C = ZRP*(ZC1B-ZC2B)-ZBETA
      PRE2(JL) = (ZRI0C-ZDT*ZRI1C) / PRMUZ(JL)
      ZRI0D = ZC1B*ZEXKM + ZC2B*ZEXKP - ZALPHA*ZEXMU0
      ZRI1D = ZRP * (ZC1B*ZEXKM - ZC2B*ZEXKP) - ZBETA*ZEXMU0
      PTR2(JL) = ZEXMU0 + (ZRI0D + ZDT*ZRI1D) / PRMUZ(JL)
C
 131  CONTINUE
      RETURN
      END